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Form Follows Function: Nanoparticle Shape and Its Implications for Nanomedicine

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Bio21 Institute & School of Chemistry, University of Melbourne, Parkville 3010, Australia
‡ § Adolphe Merkle Institute and §Chemistry Department, University of Fribourg, Fribourg 1700, Switzerland
*E-mail: [email protected]
Cite this: Chem. Rev. 2017, 117, 17, 11476–11521
Publication Date (Web):September 1, 2017
https://doi.org/10.1021/acs.chemrev.7b00194
Copyright © 2017 American Chemical Society
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    Abstract

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    This review is a comprehensive description of the past decade of research into understanding how the geometry and size of nanoparticles affect their interaction with biological systems: from single cells to whole organisms. Recently, there has been a great deal of effort to use both the shape and the size of nanoparticles to target specific cellular uptake mechanisms, biodistribution patterns, and pharmacokinetics. While the successes of spherical lipid-based nanoparticles have heralded marked changes in chemotherapy worldwide, the history of asbestos-induced lung disease casts a long shadow over fibrous materials to date. The impact of particle morphology is known to be intertwined with many physicochemical parameters, namely, size, elasticity, surface chemistry, and biopersistence. In this review, we first highlight some of the morphologies observed in nature as well as shapes available to us through synthetic strategies. Following this we discuss attempts to understand the cellular uptake of nanoparticles through various theoretical models before comparing this with observations from in vitro and in vivo experiments. In addition, we consider the impact of nanoparticle shape at different size regimes on targeting, cytotoxicity, and cellular mechanics.

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